KR101541238B1 - Cover structure for air ventilation duct - Google Patents

Abstract

The present invention relates to a duct installed in a wall and connecting an outdoor to an indoor space. And a cover assembly having a frame having a web disposed on the wall to be positioned at a front end of the duct and a plurality of wing plates spaced apart from the frame, Thereby providing an air vent cover structure that reduces manufacturing costs.

Description

{COVER STRUCTURE FOR AIR VENTILATION DUCT}

The present invention relates to an air vent cover structure, and more particularly, to an air vent cover structure that reduces the weight of a structure, reduces welding and manufacturing costs, reduces material cost and manufacturing cost, .

Generally, a window having a louver is installed in a building such as a greenhouse or a traditional market, and is a facility used for ventilation, shading, canopy, windshield, and waterproofing.

This is accomplished by installing a plurality of louvers equidistantly spaced in a rectangular frame.

The conventional louver is installed to protrude from the end of the intake and exhaust pipe to the outside of the wall, and is formed in a shape inclined downward.

A louver having such a shape can basically block the inflow of rainwater, but it is a factor that hinders smooth flow of air.

Further, since the louver preform is formed in a sloped shape, there is a problem that the flow of air is disturbed and noise and vibration are increased.

Further, the conventional louver is fixed to the frame with a simple inclined shape, and the structural rigidity is also low.

Further, since the louver protrudes to the outside of the wall, there is a problem that the louver can not be used when the space is severely constrained like an offshore plant.

1 is a view showing a conventional cover structure.

Conventionally, in the case of forming the frame of the cover structure, the four members 11 are arranged in a quadrangular shape and welded to the flat plate member 10, or after the shaped steel is cut into the first straight line, A portion of the end portion is further cut and then formed by welding.

In such a case, the number of welding points W increases as the four members 11 are welded, thereby increasing the number of welding operations, which results in an increase in air and a rise in production costs.

Exterior louver panel (Patent Application No. 10-2008-0060210)

It is an object of the present invention to provide an air vent cover structure which is capable of reducing the weight of a product to be easily applied to a floating offshore plant facility and improving intrusion water blocking and ventilation performance.

It is another object of the present invention to provide an air vent cover structure which can reduce the number of welding operations and thereby reduce manufacturing costs and enhance the ventilation performance.

It is still another object of the present invention to provide an air vent cover structure that enhances the ventilation function, reduces noises, effectively blocks intrusion and intrusion water, and improves ventilation performance.

In one aspect, the present invention provides a duct, And a cover assembly having a frame having a web disposed on the wall to be positioned at a front end of the duct and a plurality of wing plates spaced apart from the frame, Thereby providing an air vent cover structure that reduces manufacturing costs.

The upper end of the web of the frame is further projected toward the outdoor side than the lower end of the web of the frame, and the outdoor side front surface of the frame is formed to be inclined.

The depth of the upper end of the web of the frame is preferably deeper than the depth of the lower end of the web of the frame.

Preferably, the plurality of vane plates are disposed along the inclination of the frame.

Preferably, the depths of the plurality of vane plates are gradually made shallower from the upper side to the lower side with respect to the depth of the frame.

According to another aspect of the present invention, there is provided an air conditioner comprising: a duct installed in a wall and connecting an outdoor unit to an indoor unit; And a cover assembly having a frame having a web disposed on the wall so as to be positioned at a front end of the duct and a plurality of wing plates spaced apart from the frame, the air vent cover Structure.

The frame is formed by inserting a pair of reference members and fixing members at both ends between the pair of reference members and welding the contact surfaces of the pair of reference members with the pair of reference members.

At both ends of the fixing member, it is preferable that a welding improvement groove for welding is formed.

The web lower end position of the frame is preferably disposed higher than the lower end position of the duct.

It is preferable that the plurality of blade plates are arranged to be inclined downward, and the upper end or the upper and lower ends of the web of the frame have the same inclination as the inclination of the plurality of blade plates.

The depth of the plurality of vane plates is preferably shallower than the depth of the frame.

The depth of the plurality of vane plates preferably forms a depth of 90% or less of the depth of the frame.

Preferably, protrusions are formed in at least one of the plurality of vane plates.

It is preferable that the projecting portion is formed by bending the extruding plate, and the first surface or the second surface of the vane plate is formed to be protruded.

It is preferable that the projecting portion is formed at one end or both ends of the wing plate or at a position between one end and the other end of the wing plate.

INDUSTRIAL APPLICABILITY The present invention has an effect of reducing the weight of a product and easily applying it to a floating offshore plant facility in which the weight limitation of the structure is strict.

Further, the present invention has the effect of reducing welding and manufacturing costs, and reducing the material cost and the manufacturing cost.

In addition, the present invention has an effect of preventing the inflow of rainwater and minimizing the reduction of the ventilation area, thereby facilitating the flow of air.

Further, the present invention has the effect of minimizing the noise by smoothly flowing the air by the horizontal plate.

1 is a perspective view showing a conventional cover structure.
FIG. 2 is a view showing a first embodiment of an air vent cover structure improving the intrusion water blocking and ventilation performance of the present invention.
Fig. 3 is a view showing another example of the wing plate shown in Fig. 2. Fig.
Fig. 4 is a view showing another example of the frame shown in Fig. 2. Fig.
5 is a view showing another example of the wingspan and frame shown in Fig.
FIG. 6 is a view showing a second embodiment of an air vent cover structure improving the intrusion water blocking and ventilation performance of the present invention.
FIG. 7 is a view showing a plane view of the air vent cover structure of FIG. 6 with improved interception and ventilation performance. FIG.
FIG. 8 is a cross-sectional view (side view) of the air vent cover structure of FIG. 6 with improved intrusion water blocking and ventilation performance.
Fig. 9 is a view showing another example of the frame of Fig. 8. Fig.
10 is a view showing various examples of protrusions formed on a wing plate according to the present invention.
11A, 11B and 11C are views showing various examples of bolt holes provided in the frame for fixing the air vent cover structure according to the present invention to a wall.

Hereinafter, an air vent cover structure having enhanced intrusion water blocking and ventilation performance will be described with reference to the accompanying drawings.

First Embodiment

FIG. 2 is a view showing a first embodiment of an air vent cover structure improving the intrusion water blocking and ventilation performance of the present invention.

Referring to FIG. 2, the air vent cover structure of the present invention mainly includes a duct 200 and a cover assembly 300.

The duct 200 is installed inside the wall body 100 so that one end thereof is exposed to the outside, and forms an air flow path connecting the outside of the room and the room.

The cover assembly 300 includes a frame 310 having a web installed on the wall 100 so as to be positioned at a front end of the duct 200 and a plurality of blade plates 320).

The plurality of vane plates 320 are arranged to be inclined downward along the outdoor side on the indoor side.

Here, the web top 311 of the frame 310 is further projected toward the outdoor side than the web bottom end 312 of the frame, and the outdoor side front surface of the frame 310 is formed to be inclined.

Thus, the depth of the web top 311 of the frame is greater than the depth of the web bottom end 312 of the frame.

In addition, the plurality of vane plates 320 are disposed along the inclination of the frame 310.

In addition, the depths of the plurality of vane plates 320 may be gradually decreased from above to below the depth of the frame 310.

Accordingly, the length of the plurality of wing plates 320 forms a length that gradually decreases from the upper end of the frame 310 along the lower end thereof.

The web lower end 312 of the frame is positioned lower than the lower end of the duct 200.

Fig. 3 is a view showing another example of the wing plate shown in Fig. 2. Fig.

3, the plurality of vane plates 330 are arranged to be inclined along the lower end from the upper end of the frame 310 and have the same length or depth.

The web lower end 312 of the frame is positioned lower than the lower end of the duct 200.

Fig. 4 is a view showing another example of the frame shown in Fig. 2. Fig.

4, the web top 312 of the frame is formed with a downward slope, which is formed to have the same slope as the slopes of the plurality of vane plates 320.

The web lower end 312 of the frame is positioned lower than the lower end of the duct 200.

At this time, the length of the plurality of wing plates 320 is gradually reduced from the upper end of the frame 310 along the lower end.

5 is a view showing another example of the wingspan and frame shown in Fig.

5, the web top 311 of the frame is formed to be inclined downward, and the inclination is formed to have the same inclination as the inclination of the plurality of vane plates 330. [

The web lower end 312 of the frame is positioned lower than the lower end of the duct 200.

Here, the plurality of vane plates 330 are arranged to be inclined from the upper end of the frame 310 along the lower end thereof, and have the same length or depth.

The protrusions 350 and 351 shown in FIG. 8 may be further formed on the plurality of vanes 320 and 330 shown in FIGS. 2 to 5.

It is preferable that protrusions 350 and 351 are formed in at least one position of the plurality of vanes 320.

The protrusions 350 and 351 are formed by bending the blade 320 and protrude from the first or second surface of the blade 320.

The protrusions 350 and 351 are formed at one or both ends of the blade 320 or between one end and the other end of the blade 320.

Second Embodiment

FIG. 6 is a view showing a second embodiment of an air vent cover structure having enhanced intrusion water blocking and ventilation performance according to the present invention, and FIG. 7 is a plan view of an air vent cover structure having improved intrusion- FIG.

Referring to FIGS. 6 and 7, the air vent cover structure of the present invention includes a duct 200 and a cover assembly 300.

The duct 200 has the same configuration as that described in the first embodiment.

The cover assembly 300 has a frame 310 having a web installed on the wall 100 so as to be positioned at the front end of the duct 200 and a plurality of blades installed at intervals in the frame 310 .

The frame 310 includes a pair of reference members 310a and fixing members 310b at both ends between the pair of reference members 310a and the fixing member 310b, And the contact surface of the pair with the reference member 310a is welded along the welding line W. [

At this time, the pair of reference members are formed so that the length of the frame and the length of the web are the same.

In addition, welded improvement grooves (not shown) for welding construction are formed at both ends of the fixing member 310b.

In addition, the plurality of blade plates 340 are disposed downwardly inclined.

FIG. 8 is a cross-sectional view (side view) of the air vent cover structure of FIG. 6 with improved intrusion water blocking and ventilation performance.

8, the web bottom end 312 of the frame according to the present invention is positioned higher than the bottom end position of the duct 200.

Therefore, it is possible to prevent the inflow of the rainwater and the inflow water into the interior of the duct 200 through the lower end of the frame 310.

The depth of the plurality of vane plates 340 may be shallower than the depth of the frame 310.

Here, the depth of the plurality of vanes 340 forms a depth of 90% or less of the depth of the frame 310.

Fig. 9 is a view showing another example of the frame of Fig. 8. Fig.

9, the web top 313 and the web bottom 314 of the frame according to the present invention are formed to have the same slope as the slopes of the plurality of blades 340.

In addition, although not shown in the drawings, only the web top 313 of the frame may be formed to have the same slope as that of the wing plate 340.

10 is a view showing various examples of protrusions formed on a wing plate according to the present invention.

2 to 5 and FIGS. 8 to 9, protrusions 350 and 351 may be formed on at least one position of the plurality of vane plates 340 according to the present invention.

The protruding portion is formed by bending the wing plate 340, and the first surface or the second surface of the wing plate 340 is protruded.

The protrusions 350 and 351 are formed at one or both ends of the blade plate 340 or between one end and the other end of the blade plate 340.

The protrusions 350 and 351 according to the present invention may be formed of the triangular protrusions 350 or may be formed of the right-angle protrusions 351 bent at right angles.

Alternatively, the triangular protrusions 350 and the right-angled protrusions 351 may be formed at both ends of one blade plate 340 in combination.

Further, the right-angled protrusion 351 may be formed to bend downward from the front side of the outer side of the blade plate 340. [

Due to the above-described formation of protrusions, it is possible to prevent the outflow of air into the outdoors side by riding on the wing plate when the rain is hit by the wing plate.

Third Embodiment

11A, 11B and 11C are views showing various examples of the bolt holes 410 and 420 installed in the frame 310 to fix the air vent cover assembly 300 according to the present invention to the wall 100 .

The bolt hole may be selectively divided into a bolt hole 410 having one side of the opening and a bolt hole 420 having an opening close to the opening.

The bolt holes 410 and 420 may be formed in a bolt hole 420 having one side open at an opening on a frame of the reference member 310a or the fixing member 310b located on one side of the frame 310, Can be installed. At this time, bolt holes 420 in which the periphery of the openings are closed may be formed on all four frames 410.

It is also possible that the bolt hole 410 with one side of the opening is opened and the bolt hole 420 with the vicinity of the opening are closed together on one frame 410.

Further, the bolt hole 420, which is closed at the periphery of the opening, may be formed to have a longer length than that of the height and to have arc ends at both ends.

When the bolt hole 420 with one side of the opening is provided, positioning and fastening of the bolt hole can be performed quickly when installing the air vent cover assembly 300 on the wall 100 connected to the duct 200 The width of the frame can be reduced, and the weight can be advantageously reduced.

The configurations and shapes of the above-described first, second, and third embodiments can be selectively applied to each other.

With the above arrangement, the embodiment of the present invention can reduce the thickness of the blade plate by reducing the depth of the frame web and the blade plate, and increasing the rigidity by not providing a projection on the blade plate. Therefore, it is possible to reduce the weight of the product and easily apply it to a floating offshore plant facility.

Further, the embodiment according to the present invention has an advantage in that it is possible to reduce the number of welding and manufacturing processes, thereby reducing the material cost and the manufacturing cost.

Further, in the embodiment of the present invention, the upper end of the frame web is formed deeper than the lower end to form the eaves effect, and the lower end of the frame web and the lower end of the duct are stepped to form a rain- Thereby preventing the falling water from flowing into the duct, thereby effectively preventing the rainwater and the intrusion water.

In addition, the embodiment according to the present invention has an advantage that the ventilation function is enhanced, the noise is reduced due to the provision of the projection, and the excellent and intrusion water can be effectively blocked.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. . Accordingly, the true scope of the present invention should be determined by the following claims.

100: Wall
200: Duct
300: Cover assembly
310: frame
310a: Reference member
310b: Fixing member
311,313: frame web top
312,314: Frame web bottom
320, 330, 340: wing plate
350, 351:
410 opening with one side open
420 A closed bolt hole around the opening
W: Welding line

Claims (16)

A duct connected to the outside of the room and installed in the wall; And
A cover assembly having a frame having a web disposed on the wall to be positioned at a front end of the duct and a plurality of blade plates spaced apart from the frame,
Wherein an upper end of the web of the frame further protrudes horizontally toward the outdoor side than a lower end of the web of the frame and an outdoor side surface of the frame is inclined downward in the form of an inverted right triangle. Air vent cover construction.
The method according to claim 1,
The plurality of blade plates
Wherein the air vent cover structure is disposed along the inclination of the frame.
3. The method of claim 2,
The depth of the plurality of vane plates,
Wherein the air vent cover structure is formed so as to be gradually shallower from the upper side to the lower side with respect to the depth of the frame.
The method according to claim 1,
The frame includes a pair of reference members and fixing members inserted at both ends between the pair of reference members,
Wherein the pair of reference members have the same length of the frame and the web,
Wherein a contact surface between the fixing member and the pair of reference members is welded to the air vent cover structure.
The method of claim 4, wherein
Wherein an improvement groove for welding is formed at both ends of the fixing member.
The method of claim 4, wherein
Wherein the depth of the web top of the frame is greater than the depth of the web bottom of the frame.
The method according to claim 1,
The web lower end position of the frame,
Wherein the air vent cover structure is disposed higher than a lower end position of the duct.
The method according to claim 1,
Wherein the plurality of vane plates are disposed downwardly inclined,
Wherein an upper end, an upper end, and a lower end of the web of the frame have the same inclination as the inclination of the plurality of vane plates.
The method according to claim 1,
The depth of the plurality of vane plates,
Wherein the air vent cover structure is formed to be shallower than the depth of the frame.
10. The method of claim 9,
The depth of the plurality of vane plates,
And a depth of 90% or less of the depth of the frame is formed in the air vent cover structure.
The method according to claim 1,
Wherein at least one of the plurality of vane plates is formed with a protrusion at a position at least one of the vane plates.
12. The method of claim 11,
Wherein the projecting portion is formed by bending the blade,
Wherein a first surface or a second surface of the vane plate is formed to protrude from the first surface or the second surface of the vane plate.
12. The method of claim 11,
The projection
Wherein the air vent cover structure is formed at one or both ends of the vane plate or between one end and the other end of the vane plate.
The method according to claim 1,
Wherein the frame is formed with a bolt hole with one side of the opening being opened in a reference member or a fixing member located at one or more lateral sides of the left or right or upper and lower sides of the air vent cover structure.
15. The method of claim 14,
Wherein a bolt hole having one side of the opening is opened and a bolt hole having a closed periphery of the opening are formed in one frame in a mixed manner, thereby improving the air vent cover structure.
15. The method of claim 14,
Wherein the bolt hole having the periphery of the opening is longer than the height, and both ends of the bolt hole are circular arc.

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